serval-dna/testframework.sh
2013-01-10 12:11:24 +10:30

1454 lines
41 KiB
Bash

#!/bin/bash
#
# Serval Project testing framework for Bash shell
# Copyright 2012 Serval Project, Inc.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
# This file is sourced by all testing scripts. A typical test script looks
# like this:
#
# #!/bin/bash
# source testframework.sh
# setup() {
# export BLAH_CONFIG=$TFWTMP/blah.conf
# echo "username=$LOGNAME" >$BLAH_CONFIG
# }
# teardown() {
# # $TFWTMP is always removed after every test, so no need to
# # remove blah.conf ourselves.
# }
# doc_feature1='Feature one works'
# test_feature1() {
# execute programUnderTest --feature1 arg1 arg2
# assertExitStatus '==' 0
# assertRealTime --message='ran in under half a second' '<=' 0.5
# assertStdoutIs ""
# assertStderrIs ""
# tfw_cat arg1
# }
# doc_feature2='Feature two fails with status 1'
# setup_feature2() {
# # Overrides setup(), so we have to call it ourselves explicitly
# # here if we still want it.
# setup
# echo "option=specialValue" >>$BLAH_CONFIG
# }
# test_feature2() {
# execute programUnderTest --feature2 arg1 arg2
# assertExitStatus '==' 1
# assertStdoutIs -e "Response:\tok\n"
# assertStderrGrep "^ERROR: missing arg3$"
# }
# runTests "$@"
AWK=awk
SED=sed
GREP=grep
TSFMT='+%Y-%m-%d %H:%M:%S'
SYSTYPE=`uname -s`
if [ $SYSTYPE = "SunOS" ]; then
abspath () { case "$1" in /*)printf "%s\n" "$1";; *)printf "%s\n" "$PWD/$1";; esac; }
AWK=gawk
SED=gsed
GREP=ggrep
fi
if [ $SYSTYPE = "Linux" ]; then
# Get nanosecond resolution
TSFMT='+%Y-%m-%d %H:%M:%S.%N'
fi
usage() {
echo -n "\
Usage: ${0##*/} [options] [--]
Options:
-t, --trace Enable shell "set -x" tracing during tests, output to test log
-v, --verbose Send test log to output during execution
-j, --jobs Run all tests in parallel (by default runs as --jobs=1)
--jobs=N Run tests in parallel, at most N at a time
-E, --stop-on-error Do not execute any tests after an ERROR occurs
-F, --stop-on-failure Do not execute any tests after a FAIL occurs
--filter=PREFIX Only execute tests whose names start with PREFIX
--filter=N Only execute test number N
--filter=M-N Only execute tests with numbers in range M-N inclusive
--filter=-N Only execute tests with numbers <= N
--filter=N- Only execute tests with numbers >= N
--filter=M,N,... Only execute tests with number M or N or ...
"
}
# Internal utility for setting shopt variables and restoring their original
# value:
# local oo
# _tfw_shopt oo -s extglob -u extdebug
# ...
# _tfw_shopt_restore oo
_tfw_shopt() {
local _var="$1"
shift
local op=s
local restore=
while [ $# -ne 0 ]
do
case "$1" in
-s) op=s;;
-u) op=u;;
*)
local opt="$1"
restore="${restore:+$restore; }shopt -$(shopt -q $opt && echo s || echo u) $opt"
shopt -$op $opt
;;
esac
shift
done
eval $_var='"$restore"'
}
_tfw_shopt_restore() {
local _var="$1"
[ -n "${!_var}" ] && eval "${!_var}"
}
declare -a _tfw_running_jobs
declare -a _tfw_job_pgids
# The rest of this file is parsed for extended glob patterns.
_tfw_shopt _tfw_orig_shopt -s extglob
runTests() {
_tfw_stdout=1
_tfw_stderr=2
_tfw_checkBashVersion
export PATH="$(_tfw_abspath "${BASH_SOURCE%/*}"):$PATH"
_tfw_checkTerminfo
_tfw_checkCommandInPATH tfw_createfile
_tfw_invoking_script=$(abspath "${BASH_SOURCE[1]}")
_tfw_suite_name="${_tfw_invoking_script##*/}"
_tfw_cwd=$(abspath "$PWD")
_tfw_tmpdir="$(_tfw_abspath -P "${TFW_TMPDIR:-${TMPDIR:-/tmp}}")"
_tfw_tmpmain="$_tfw_tmpdir/_tfw-$$"
_tfw_njobs=1
_tfw_lognoise=true
trap '_tfw_status=$?; _tfw_killtests; rm -rf "$_tfw_tmpmain"; exit $_tfw_status' EXIT SIGHUP SIGINT SIGTERM
rm -rf "$_tfw_tmpmain"
mkdir -p "$_tfw_tmpmain" || return $?
_tfw_logdir="${TFW_LOGDIR:-$_tfw_cwd/testlog}/$_tfw_suite_name"
_tfw_trace=false
_tfw_verbose=false
_tfw_stop_on_error=false
_tfw_stop_on_failure=false
_tfw_default_timeout=60
local allargs="$*"
local -a filters=()
local oo
_tfw_shopt oo -s extglob
while [ $# -ne 0 ]; do
case "$1" in
--help) usage; exit 0;;
-t|--trace) _tfw_trace=true;;
-v|--verbose) _tfw_verbose=true;;
--filter=*) filters+=("${1#*=}");;
-j|--jobs) _tfw_njobs=0;;
--jobs=+([0-9])) _tfw_njobs="${1#*=}";;
--jobs=*) _tfw_fatal "invalid option: $1";;
-E|--stop-on-error) _tfw_stop_on_error=true;;
-F|--stop-on-failure) _tfw_stop_on_failure=true;;
--) shift; break;;
--*) _tfw_fatal "unsupported option: $1";;
*) _tfw_fatal "spurious argument: $1";;
esac
shift
done
_tfw_shopt_restore oo
if $_tfw_verbose && [ $_tfw_njobs -ne 1 ]; then
_tfw_fatal "--verbose is incompatible with --jobs=$_tfw_njobs"
fi
# Create an empty results directory.
_tfw_results_dir="$_tfw_tmpmain/results"
mkdir "$_tfw_results_dir" || return $?
# Create an empty log directory.
mkdir -p "$_tfw_logdir" || return $?
rm -f "$_tfw_logdir"/*
# Enumerate all the test cases.
_tfw_find_tests "${filters[@]}"
# Enable job control.
set -m
# Iterate through all test cases, starting a new test whenever the number of
# running tests is less than the job limit.
_tfw_testcount=0
_tfw_passcount=0
_tfw_failcount=0
_tfw_errorcount=0
_tfw_fatalcount=0
_tfw_running_jobs=()
_tfw_job_pgids=()
_tfw_test_number_watermark=0
local testNumber
local testPosition=0
for ((testNumber = 1; testNumber <= ${#_tfw_tests[*]}; ++testNumber)); do
testName="${_tfw_tests[$(($testNumber - 1))]}"
[ -z "$testName" ] && continue
let ++testPosition
let ++_tfw_testcount
# Wait for any existing child process to finish.
while [ $_tfw_njobs -ne 0 -a ${#_tfw_running_jobs[*]} -ge $_tfw_njobs ]; do
_tfw_harvest_processes
done
[ $_tfw_fatalcount -ne 0 ] && break
$_tfw_stop_on_error && [ $_tfw_errorcount -ne 0 ] && break
$_tfw_stop_on_failure && [ $_tfw_failcount -ne 0 ] && break
# Start the next test in a child process.
_tfw_echo_intro $testPosition $testNumber $testName
if $_tfw_verbose || [ $_tfw_njobs -ne 1 ]; then
echo
fi
echo "$testPosition $testNumber $testName" >"$_tfw_results_dir/$testName"
(
_tfw_test_name="$testName"
# Pick a unique decimal number that must not coincide with other tests
# being run concurrently, _including tests being run in other test
# scripts by other users on the same host_. We cannot simply use
# $testNumber. The subshell process ID is ideal. We don't use
# $BASHPID because MacOS only has Bash-3.2, and $BASHPID was introduced
# in Bash-4.
_tfw_unique=$($BASH -c 'echo $PPID')
# All files created by this test belong inside a temporary directory.
# The path name must be kept short because it is used to construct
# named socket paths, which have a limited length.
_tfw_tmp=$_tfw_tmpdir/_tfw-$_tfw_unique
trap '_tfw_status=$?; rm -rf "$_tfw_tmp"; exit $_tfw_status' EXIT SIGHUP SIGINT SIGTERM
local start_time=$(_tfw_timestamp)
local finish_time=unknown
(
trap '_tfw_finalise; _tfw_teardown; _tfw_exit' EXIT SIGHUP SIGINT SIGTERM
_tfw_result=ERROR
mkdir $_tfw_tmp || exit 255
_tfw_setup
_tfw_result=FAIL
_tfw_phase=testcase
tfw_log "# CALL test_$_tfw_test_name()"
$_tfw_trace && set -x
test_$_tfw_test_name
set +x
_tfw_result=PASS
exit 255
)
local stat=$?
finish_time=$(_tfw_timestamp)
local result=FATAL
case $stat in
254) result=ERROR;;
1) result=FAIL;;
0) result=PASS;;
esac
echo "$testPosition $testNumber $testName $result" >"$_tfw_results_dir/$testName"
{
echo "Name: $testName"
echo "Result: $result"
echo "Started: $start_time"
echo "Finished: $finish_time"
echo '++++++++++ log.stdout ++++++++++'
cat $_tfw_tmp/log.stdout
echo '++++++++++'
echo '++++++++++ log.stderr ++++++++++'
cat $_tfw_tmp/log.stderr
echo '++++++++++'
if $_tfw_trace; then
echo '++++++++++ log.xtrace ++++++++++'
cat $_tfw_tmp/log.xtrace
echo '++++++++++'
fi
} >"$_tfw_logdir/$testNumber.$testName.$result"
exit 0
) </dev/null &
local job=$(jobs %% | $SED -n -e '1s/^\[\([0-9]\{1,\}\)\].*/\1/p')
_tfw_running_jobs+=($job)
_tfw_job_pgids[$job]=$(jobs -p %%)
ln -f -s "$_tfw_results_dir/$testName" "$_tfw_results_dir/job-$job"
done
# Wait for all child processes to finish.
while [ ${#_tfw_running_jobs[*]} -ne 0 ]; do
_tfw_harvest_processes
done
# Clean up working directory.
rm -rf "$_tfw_tmpmain"
trap - EXIT SIGHUP SIGINT SIGTERM
# Echo result summary and exit with success if no failures or errors.
s=$([ $_tfw_testcount -eq 1 ] || echo s)
echo "$_tfw_testcount test$s, $_tfw_passcount pass, $_tfw_failcount fail, $_tfw_errorcount error"
[ $_tfw_fatalcount -eq 0 -a $_tfw_failcount -eq 0 -a $_tfw_errorcount -eq 0 ]
}
_tfw_killtests() {
if [ $_tfw_njobs -eq 1 ]; then
echo -n " killing..."
else
echo -n -e "\r\rKilling tests...\r"
fi
trap '' SIGHUP SIGINT SIGTERM
local job
for job in ${_tfw_running_jobs[*]}; do
kill -TERM %$job 2>/dev/null
done
while [ ${#_tfw_running_jobs[*]} -ne 0 ]; do
_tfw_harvest_processes
done
}
_tfw_echo_intro() {
local docvar="doc_$3"
echo -n "$2. ${!docvar:-$3}..."
[ $1 -gt $_tfw_test_number_watermark ] && _tfw_test_number_watermark=$1
}
_tfw_harvest_processes() {
# <incantation>
# This is the only way known to get the effect of a 'wait' builtin that will
# return when _any_ child dies or after a one-second timeout.
trap 'kill -TERM $spid 2>/dev/null' SIGCHLD
sleep 1 &
spid=$!
set -m
wait $spid >/dev/null 2>/dev/null
trap - SIGCHLD
# </incantation>
local -a surviving_jobs=()
local job
for job in ${_tfw_running_jobs[*]}; do
if jobs %$job >/dev/null 2>/dev/null; then
surviving_jobs+=($job)
continue
fi
# Kill any residual processes from the test case.
local pgid=${_tfw_job_pgids[$job]}
[ -n "$pgid" ] && kill -TERM -$pgid 2>/dev/null
# Report the test script outcome.
if [ -s "$_tfw_results_dir/job-$job" ]; then
set -- $(<"$_tfw_results_dir/job-$job")
local testPosition="$1"
local testNumber="$2"
local testName="$3"
local result="$4"
case "$result" in
ERROR)
let _tfw_errorcount=_tfw_errorcount+1
;;
PASS)
let _tfw_passcount=_tfw_passcount+1
;;
FAIL)
let _tfw_failcount=_tfw_failcount+1
;;
*)
result=FATAL
let _tfw_fatalcount=_tfw_fatalcount+1
;;
esac
local lines
if ! $_tfw_verbose && [ $_tfw_njobs -eq 1 ]; then
echo -n " "
_tfw_echo_result "$result"
echo
elif ! $_tfw_verbose && lines=$($_tfw_tput lines); then
local travel=$(($_tfw_test_number_watermark - $testPosition + 1))
if [ $travel -gt 0 -a $travel -lt $lines ] && $_tfw_tput cuu $travel ; then
_tfw_echo_intro $testPosition $testNumber $testName
echo -n " "
_tfw_echo_result "$result"
echo
travel=$(($_tfw_test_number_watermark - $testPosition))
[ $travel -gt 0 ] && $_tfw_tput cud $travel
fi
else
echo -n "$testNumber. ... "
_tfw_echo_result "$result"
echo
fi
else
_tfw_echoerr "${BASH_SOURCE[1]}: job %$job terminated without result"
fi
rm -f "$_tfw_results_dir/job-$job"
done
_tfw_running_jobs=(${surviving_jobs[*]})
}
_tfw_echo_result() {
local result="$1"
case "$result" in
ERROR | FATAL)
$_tfw_tput setaf 1
$_tfw_tput rev
echo -n "$result"
$_tfw_tput sgr0
$_tfw_tput op
;;
PASS)
$_tfw_tput setaf 2
echo -n "$result"
$_tfw_tput op
;;
FAIL)
$_tfw_tput setaf 1
echo -n "$result"
$_tfw_tput op
;;
*)
echo -n "$result"
;;
esac
}
# The following functions can be overridden by a test script to provide a
# default fixture for all test cases.
setup() {
:
}
finally() {
:
}
teardown() {
:
}
# The following functions are provided to facilitate writing test cases and
# fixtures.
# Add quotations to the given arguments to allow them to be expanded intact
# in eval expressions.
shellarg() {
_tfw_shellarg "$@"
echo "${_tfw_args[*]}"
}
# Echo the absolute path (containing symlinks if given) of the given
# file/directory, which does not have to exist or even be accessible.
abspath() {
_tfw_abspath -L "$1"
}
# Echo the absolute path (resolving all symlinks) of the given file/directory,
# which does not have to exist or even be accessible.
realpath() {
_tfw_abspath -P "$1"
}
# Escape all grep(1) basic regular expression metacharacters.
escape_grep_basic() {
local re="$1"
local nil=''
re="${re//[\\]/\\\\$nil}"
re="${re//./\\.}"
re="${re//\*/\\*}"
re="${re//^/\\^}"
re="${re//\$/\\$}"
re="${re//\[/\\[}"
re="${re//\]/\\]}"
echo "$re"
}
# Escape all egrep(1) extended regular expression metacharacters.
escape_grep_extended() {
local re="$1"
local nil=''
re="${re//[\\]/\\\\$nil}"
re="${re//./\\.}"
re="${re//\*/\\*}"
re="${re//\?/\\?}"
re="${re//+/\\+}"
re="${re//^/\\^}"
re="${re//\$/\\$}"
re="${re//(/\\(}"
re="${re//)/\\)}"
re="${re//|/\\|}"
re="${re//\[/\\[}"
re="${re//{/\\{}"
echo "$re"
}
# Return true if all the arguments arg2... match the given grep(1) regular
# expression arg1.
matches_rexp() {
_tfw_matches_rexp "$@"
}
# Create a file with the given size (default 0).
# Usage: create_file <path> [<size>]
# where: <size> is of the form Nu
# N is decimal integer
# u is one of kKmMgG (k=10^3, K=2^10, m=10^6, M=2^20, g=10^9, G=2^30)
create_file() {
tfw_createfile --label="$1" ${2:+--size=$2} >"$1" || error "failed command: create_file $@"
}
# Executes its arguments as a command:
# - captures the standard output and error in temporary files for later
# examination
# - captures the exit status for later assertions
# - sets the $executed variable to a description of the command that was
# executed
execute() {
tfw_log "# execute" $(shellarg "$@")
_tfw_getopts execute "$@"
shift $_tfw_getopts_shift
_tfw_execute "$@"
}
executeOk() {
tfw_log "# executeOk" $(shellarg "$@")
_tfw_getopts executeok "$@"
_tfw_opt_exit_status=0
_tfw_dump_on_fail --stderr
shift $_tfw_getopts_shift
_tfw_execute "$@"
}
# Wait until a given condition is met:
# - can specify the timeout with --timeout=SECONDS
# - can specify the sleep interval with --sleep=SECONDS
# - the condition is a command that is executed repeatedly until returns zero
# status
# where SECONDS may be fractional, eg, 1.5
wait_until() {
tfw_log "# wait_until" $(shellarg "$@")
local start=$SECONDS
_tfw_getopts wait_until "$@"
shift $_tfw_getopts_shift
local sense=
while [ "$1" = '!' ]; do
sense="$sense !"
shift
done
sleep ${_tfw_opt_timeout:-$_tfw_default_timeout} &
local timeout_pid=$!
while true; do
"$@"
[ $sense $? -eq 0 ] && break
kill -0 $timeout_pid 2>/dev/null || fail "timeout"
sleep ${_tfw_opt_sleep:-1}
done
local end=$SECONDS
tfw_log "# waited for" $((end - start)) "seconds"
return 0
}
# Executes its arguments as a command in the current shell process (not in a
# child process), so that side effects like functions setting variables will
# have effect.
# - if the exit status is non-zero, then fails the current test
# - otherwise, logs a message indicating the assertion passed
assert() {
_tfw_getopts assert "$@"
shift $_tfw_getopts_shift
[ -z "$_tfw_message" ] && _tfw_message=$(shellarg "$@")
_tfw_assert "$@" || _tfw_failexit || return $?
tfw_log "# assert $_tfw_message"
return 0
}
assertExpr() {
_tfw_getopts assertexpr "$@"
shift $_tfw_getopts_shift
_tfw_parse_expr "$@" || return $?
_tfw_message="${_tfw_message:+$_tfw_message }("$@")"
_tfw_shellarg "${_tfw_expr[@]}"
_tfw_assert eval "${_tfw_args[@]}" || _tfw_failexit || return $?
tfw_log "# assert $_tfw_message"
return 0
}
fail() {
_tfw_getopts fail "$@"
shift $_tfw_getopts_shift
[ $# -ne 0 ] && _tfw_failmsg "$1"
_tfw_backtrace
_tfw_failexit
}
error() {
_tfw_getopts error "$@"
shift $_tfw_getopts_shift
[ $# -ne 0 ] && _tfw_errormsg "$1"
_tfw_backtrace
_tfw_errorexit
}
fatal() {
[ $# -eq 0 ] && set -- "no reason given"
_tfw_fatalmsg "$@"
_tfw_backtrace
_tfw_fatalexit
}
# Append a time stamped message to the test case's stdout log. Will work even
# in a context that stdout (fd 1) is redirected. Will not log anything in a
# quietened region.
tfw_log() {
if $_tfw_lognoise; then
local ts=$(_tfw_timestamp)
cat >&$_tfw_log_fd <<EOF
${ts##* } $*
EOF
fi
}
# Execute the given command with log messages quietened.
tfw_nolog() {
if [ "$1" = ! ]; then
shift
! tfw_nolog "$@"
else
local old_lognoise=$_tfw_lognoise
_tfw_lognoise=false
"$@" >/dev/null
local stat=$?
_tfw_lognoise=$old_lognoise
return $stat
fi
}
# Append the contents of a file to the test case's stdout log. A normal 'cat'
# to stdout would also do this, but tfw_cat echoes header and footer delimiter
# lines around to content to help distinguish it, and also works even in a
# context that stdout (fd 1) is redirected.
tfw_cat() {
local header=
local show_nonprinting=
for file; do
case $file in
--header=*)
header="${1#*=}"
continue
;;
-v|--show-nonprinting)
show_nonprinting=-v
continue
;;
--stdout)
file="$_tfw_tmp/stdout"
header="${header:-stdout of ($executed)}"
;;
--stderr)
file="$_tfw_tmp/stderr"
header="${header:-stderr of ($executed)}"
;;
*)
header="${header:-${file#$_tfw_tmp/}}"
;;
esac
local missing_nl=
tfw_log "#----- $header -----"
cat $show_nonprinting "$file" >&$_tfw_log_fd
if [ "$(tail -1c "$file")" != "$newline" ]; then
echo >&$_tfw_log_fd
missing_nl=" (no newline at end)"
fi
tfw_log "#-----$missing_nl"
header=
show_nonprinting=
done
}
tfw_core_backtrace() {
local executable="$1"
local corefile="$2"
echo backtrace >"$_tfw_tmpmain/backtrace.gdb"
tfw_log "#----- gdb backtrace from $executable $corefile -----"
gdb -n -batch -x "$_tfw_tmpmain/backtrace.gdb" "$executable" "$corefile" </dev/null
tfw_log "#-----"
rm -f "$_tfw_tmpmain/backtrace.gdb"
}
assertExitStatus() {
_tfw_getopts assertexitstatus "$@"
shift $_tfw_getopts_shift
[ -z "$_tfw_message" ] && _tfw_message="exit status ($_tfw_exitStatus) of ($executed) $*"
_tfw_assertExpr "$_tfw_exitStatus" "$@" || _tfw_failexit || return $?
tfw_log "# assert $_tfw_message"
return 0
}
assertRealTime() {
_tfw_getopts assertrealtime "$@"
shift $_tfw_getopts_shift
[ -z "$_tfw_message" ] && _tfw_message="real execution time ($realtime) of ($executed) $*"
_tfw_assertExpr "$realtime" "$@" || _tfw_failexit || return $?
tfw_log "# assert $_tfw_message"
return 0
}
replayStdout() {
cat $_tfw_tmp/stdout
}
replayStderr() {
cat $_tfw_tmp/stderr
}
assertStdoutIs() {
_tfw_assert_stdxxx_is stdout "$@" || _tfw_failexit
}
assertStderrIs() {
_tfw_assert_stdxxx_is stderr "$@" || _tfw_failexit
}
assertStdoutLineCount() {
_tfw_assert_stdxxx_linecount stdout "$@" || _tfw_failexit
}
assertStderrLineCount() {
_tfw_assert_stdxxx_linecount stderr "$@" || _tfw_failexit
}
assertStdoutGrep() {
_tfw_assert_stdxxx_grep stdout "$@" || _tfw_failexit
}
assertStderrGrep() {
_tfw_assert_stdxxx_grep stderr "$@" || _tfw_failexit
}
assertGrep() {
_tfw_getopts assertcontentgrep "$@"
shift $_tfw_getopts_shift
if [ $# -ne 2 ]; then
_tfw_error "incorrect arguments"
return $?
fi
_tfw_dump_on_fail "$1"
_tfw_get_content "$1" || return $?
local s=s
local message
_tfw_assert_grep "${_tfw_opt_line_msg:+$_tfw_opt_line_msg of }$1" "$_tfw_tmp/content" "$2" || _tfw_failexit
}
# Internal (private) functions that are not to be invoked directly from test
# scripts.
# Add shell quotation to the given arguments, so that when expanded using
# 'eval', the exact same argument results. This makes argument handling fully
# immune to spaces and shell metacharacters.
_tfw_shellarg() {
local arg
_tfw_args=()
for arg; do
case "$arg" in
'' | *[^A-Za-z_0-9.,:=+\/-]* ) _tfw_args+=("'${arg//'/'\\''}'");;
*) _tfw_args+=("$arg");;
esac
done
}
# Echo the absolute path of the given path, using only Bash builtins.
_tfw_abspath() {
cdopt=-L
if [ $# -gt 1 -a "${1:0:1}" = - ]; then
cdopt="$1"
shift
fi
case "$1" in
*/)
builtin echo $(_tfw_abspath $cdopt "${1%/}")/
;;
/*/*)
if [ -d "$1" ]; then
(CDPATH= builtin cd $cdopt "$1" && builtin echo "$PWD")
else
builtin echo $(_tfw_abspath $cdopt "${1%/*}")/"${1##*/}"
fi
;;
/*)
echo "$1"
;;
*/*)
if [ -d "$1" ]; then
(CDPATH= builtin cd $cdopt "$1" && builtin echo "$PWD")
else
builtin echo $(_tfw_abspath $cdopt "${1%/*}")/"${1##*/}"
fi
;;
. | ..)
(CDPATH= builtin cd $cdopt "$1" && builtin echo "$PWD")
;;
*)
(CDPATH= builtin cd $cdopt . && builtin echo "$PWD/$1")
;;
esac
}
_tfw_timestamp() {
local ts=$(date "$TSFMT")
echo "${ts%[0-9][0-9][0-9][0-9][0-9][0-9]}"
}
_tfw_setup() {
_tfw_phase=setup
exec <&- 5>&1 5>&2 6>$_tfw_tmp/log.stdout 1>&6 2>$_tfw_tmp/log.stderr 7>$_tfw_tmp/log.xtrace
BASH_XTRACEFD=7
_tfw_log_fd=6
_tfw_stdout=5
_tfw_stderr=5
if $_tfw_verbose; then
# Find the PID of the current subshell process. Cannot use $BASHPID
# because MacOS only has Bash-3.2, and $BASHPID was introduced in Bash-4.
local mypid=$($BASH -c 'echo $PPID')
# These tail processes will die when the current subshell exits.
tail --pid=$mypid --follow $_tfw_tmp/log.stdout >&$_tfw_stdout 2>/dev/null &
tail --pid=$mypid --follow $_tfw_tmp/log.stderr >&$_tfw_stderr 2>/dev/null &
fi
export TFWUNIQUE=$_tfw_unique
export TFWVAR=$_tfw_tmp/var
mkdir $TFWVAR
export TFWTMP=$_tfw_tmp/tmp
mkdir $TFWTMP
cd $TFWTMP
tfw_log '# SETUP'
case `type -t setup_$_tfw_test_name` in
function)
tfw_log "# call setup_$_tfw_test_name()"
$_tfw_trace && set -x
setup_$_tfw_test_name $_tfw_test_name
set +x
;;
*)
tfw_log "# call setup($_tfw_test_name)"
$_tfw_trace && set -x
setup $_tfw_test_name
set +x
;;
esac
tfw_log '# END SETUP'
}
_tfw_finalise() {
_tfw_phase=finalise
tfw_log '# FINALISE'
case `type -t finally_$_tfw_test_name` in
function)
tfw_log "# CALL finally_$_tfw_test_name()"
$_tfw_trace && set -x
finally_$_tfw_test_name
set +x
;;
*)
tfw_log "# CALL finally($_tfw_test_name)"
$_tfw_trace && set -x
finally $_tfw_test_name
set +x
;;
esac
tfw_log '# END FINALLY'
}
_tfw_teardown() {
_tfw_phase=teardown
tfw_log '# TEARDOWN'
case `type -t teardown_$_tfw_test_name` in
function)
tfw_log "# CALL teardown_$_tfw_test_name()"
$_tfw_trace && set -x
teardown_$_tfw_test_name
set +x
;;
*)
tfw_log "# CALL teardown($_tfw_test_name)"
$_tfw_trace && set -x
teardown $_tfw_test_name
set +x
;;
esac
tfw_log '# END TEARDOWN'
}
_tfw_exit() {
case $_tfw_result in
PASS) exit 0;;
FAIL) exit 1;;
ERROR) exit 254;;
esac
exit 255
}
# Executes $_tfw_executable with the given arguments.
_tfw_execute() {
executed=$(shellarg "${_tfw_executable##*/}" "$@")
if $_tfw_opt_core_backtrace; then
ulimit -S -c unlimited
rm -f core
fi
{ time -p "$_tfw_executable" "$@" >$_tfw_tmp/stdout 2>$_tfw_tmp/stderr ; } 2>$_tfw_tmp/times
_tfw_exitStatus=$?
# Deal with core dump.
if $_tfw_opt_core_backtrace && [ -s core ]; then
tfw_core_backtrace "$_tfw_executable" core
fi
# Deal with exit status.
if [ -n "$_tfw_opt_exit_status" ]; then
_tfw_message="exit status ($_tfw_exitStatus) of ($executed) is $_tfw_opt_exit_status"
_tfw_dump_stderr_on_fail=true
_tfw_assert [ "$_tfw_exitStatus" -eq "$_tfw_opt_exit_status" ] || _tfw_failexit || return $?
tfw_log "# assert $_tfw_message"
else
tfw_log "# exit status of ($executed) = $_tfw_exitStatus"
fi
# Parse execution time report.
if ! _tfw_parse_times_to_milliseconds real realtime_ms ||
! _tfw_parse_times_to_milliseconds user usertime_ms ||
! _tfw_parse_times_to_milliseconds sys systime_ms
then
tfw_log '# malformed output from time:'
tfw_cat -v $_tfw_tmp/times
fi
return 0
}
_tfw_parse_times_to_milliseconds() {
local label="$1"
local var="$2"
local milliseconds=$($AWK '$1 == "'"$label"'" {
value = $2
minutes = 0
if (match(value, "[0-9]+m")) {
minutes = substr(value, RSTART, RLENGTH - 1)
value = substr(value, 1, RSTART - 1) substr(value, RSTART + RLENGTH)
}
if (substr(value, length(value)) == "s") {
value = substr(value, 1, length(value) - 1)
}
if (match(value, "^[0-9]+(\.[0-9]+)?$")) {
seconds = value + 0
print (minutes * 60 + seconds) * 1000
}
}' $_tfw_tmp/times)
[ -z "$milliseconds" ] && return 1
[ -n "$var" ] && eval $var=$milliseconds
return 0
}
_tfw_assert() {
local sense=
while [ "$1" = '!' ]; do
sense="$sense !"
shift
done
"$@"
if [ $sense $? -ne 0 ]; then
_tfw_failmsg "assertion failed: ${_tfw_message:-$*}"
_tfw_backtrace
return 1
fi
return 0
}
declare -a _tfw_opt_dump_on_fail
_tfw_dump_on_fail() {
local arg
for arg; do
local _found=false
local _f
for _f in "${_tfw_opt_dump_on_fail[@]}"; do
if [ "$_f" = "$arg" ]; then
_found=true
break
fi
done
$_found || _tfw_opt_dump_on_fail+=("$arg")
done
}
_tfw_getopts() {
local context="$1"
shift
_tfw_executable=
_tfw_opt_core_backtrace=false
_tfw_message=
_tfw_opt_dump_on_fail=()
_tfw_opt_error_on_fail=false
_tfw_opt_exit_status=
_tfw_opt_timeout=
_tfw_opt_sleep=
_tfw_opt_matches=
_tfw_opt_line=
_tfw_opt_line_sed=
_tfw_opt_line_msg=
_tfw_getopts_shift=0
local oo
_tfw_shopt oo -s extglob
while [ $# -ne 0 ]; do
case "$context:$1" in
*:--stdout) _tfw_dump_on_fail --stdout;;
*:--stderr) _tfw_dump_on_fail --stderr;;
assert*:--dump-on-fail=*) _tfw_dump_on_fail "${1#*=}";;
assert*:--error-on-fail) _tfw_opt_error_on_fail=true;;
assert*:--message=*) _tfw_message="${1#*=}";;
execute:--exit-status=+([0-9])) _tfw_opt_exit_status="${1#*=}";;
execute:--exit-status=*) _tfw_error "invalid value: $1";;
execute*:--executable=) _tfw_error "missing value: $1";;
execute*:--executable=*) _tfw_executable="${1#*=}";;
execute*:--core-backtrace) _tfw_opt_core_backtrace=true;;
wait_until:--timeout=@(+([0-9])?(.+([0-9]))|*([0-9]).+([0-9]))) _tfw_opt_timeout="${1#*=}";;
wait_until:--timeout=*) _tfw_error "invalid value: $1";;
wait_until:--sleep=@(+([0-9])?(.+([0-9]))|*([0-9]).+([0-9]))) _tfw_opt_sleep="${1#*=}";;
wait_until:--sleep=*) _tfw_error "invalid value: $1";;
assertcontentgrep:--matches=+([0-9])) _tfw_opt_matches="${1#*=}";;
assertcontentgrep:--matches=*) _tfw_error "invalid value: $1";;
assertcontent*:--line=+([0-9])) _tfw_opt_line="${1#*=}"; _tfw_opt_line_msg="line $_tfw_opt_line";;
assertcontent*:--line=+([0-9])..) _tfw_opt_line="${1#*=}\$"; _tfw_opt_line_msg="lines $_tfw_opt_line";;
assertcontent*:--line=..+([0-9])) _tfw_opt_line="1${1#*=}"; _tfw_opt_line_msg="lines $_tfw_opt_line";;
assertcontent*:--line=+([0-9])..+([0-9])) _tfw_opt_line="${1#*=}"; _tfw_opt_line_msg="lines $_tfw_opt_line";;
assertcontent*:--line=*) _tfw_error "invalid value: $1";;
*:--) let _tfw_getopts_shift=_tfw_getopts_shift+1; shift; break;;
*:--*) _tfw_error "unsupported option: $1";;
*) break;;
esac
let _tfw_getopts_shift=_tfw_getopts_shift+1
shift
done
[ -n "$_tfw_opt_line" ] && _tfw_opt_line_sed="${_tfw_opt_line/../,}"
case "$context" in
execute*)
if [ -z "$_tfw_executable" ]; then
_tfw_executable="$1"
let _tfw_getopts_shift=_tfw_getopts_shift+1
shift
fi
[ -z "$_tfw_executable" ] && _tfw_error "missing executable argument"
;;
esac
_tfw_shopt_restore oo
return 0
}
_tfw_matches_rexp() {
local rexp="$1"
shift
local arg
for arg; do
if ! echo "$arg" | $GREP -q -e "$rexp"; then
return 1
fi
done
return 0
}
_tfw_parse_expr() {
local _expr="$*"
_tfw_expr=()
while [ $# -ne 0 ]; do
case "$1" in
'&&' | '||' | '!' | '(' | ')')
_tfw_expr+=("$1")
shift
;;
*)
if [ $# -lt 3 ]; then
_tfw_error "invalid expression: $_expr"
return $?
fi
case "$2" in
'==') _tfw_expr+=("[" "$1" "-eq" "$3" "]");;
'!=') _tfw_expr+=("[" "$1" "-ne" "$3" "]");;
'<=') _tfw_expr+=("[" "$1" "-le" "$3" "]");;
'<') _tfw_expr+=("[" "$1" "-lt" "$3" "]");;
'>=') _tfw_expr+=("[" "$1" "-ge" "$3" "]");;
'>') _tfw_expr+=("[" "$1" "-gt" "$3" "]");;
'~') _tfw_expr+=("_tfw_matches_rexp" "$3" "$1");;
'!~') _tfw_expr+=("!" "_tfw_matches_rexp" "$3" "$1");;
*)
_tfw_error "invalid expression: $_expr"
return $?
;;
esac
shift 3
;;
esac
done
return 0
}
_tfw_assertExpr() {
_tfw_parse_expr "$@" || return $?
_tfw_shellarg "${_tfw_expr[@]}"
_tfw_assert eval "${_tfw_args[@]}"
}
_tfw_get_content() {
case "$_tfw_opt_line_sed" in
'') ln -f "$1" "$_tfw_tmp/content" || error "ln failed";;
*) $SED -n -e "${_tfw_opt_line_sed}p" "$1" >"$_tfw_tmp/content" || error "sed failed";;
esac
}
_tfw_assert_stdxxx_is() {
local qual="$1"
shift
_tfw_getopts assertcontentis --$qual --stderr "$@"
shift $((_tfw_getopts_shift - 2))
if [ $# -lt 1 ]; then
_tfw_error "incorrect arguments"
return $?
fi
_tfw_get_content "$_tfw_tmp/$qual" || return $?
local message="${_tfw_message:-${_tfw_opt_line_msg:+$_tfw_opt_line_msg of }$qual of ($executed) is $(shellarg "$@")}"
echo -n "$@" >$_tfw_tmp/stdxxx_is.tmp
if ! cmp -s $_tfw_tmp/stdxxx_is.tmp "$_tfw_tmp/content"; then
_tfw_failmsg "assertion failed: $message"
_tfw_backtrace
return 1
fi
tfw_log "# assert $message"
return 0
}
_tfw_assert_stdxxx_linecount() {
local qual="$1"
shift
_tfw_getopts assert --$qual --stderr "$@"
shift $((_tfw_getopts_shift - 2))
if [ $# -lt 1 ]; then
_tfw_error "incorrect arguments"
return $?
fi
local lineCount=$(( $(cat $_tfw_tmp/$qual | wc -l) + 0 ))
[ -z "$_tfw_message" ] && _tfw_message="$qual line count ($lineCount) $*"
_tfw_assertExpr "$lineCount" "$@" || _tfw_failexit || return $?
tfw_log "# assert $_tfw_message"
return 0
}
_tfw_assert_stdxxx_grep() {
local qual="$1"
shift
_tfw_getopts assertcontentgrep --$qual --stderr "$@"
shift $((_tfw_getopts_shift - 2))
if [ $# -ne 1 ]; then
_tfw_error "incorrect arguments"
return $?
fi
_tfw_get_content "$_tfw_tmp/$qual" || return $?
_tfw_assert_grep "${_tfw_opt_line_msg:+$_tfw_opt_line_msg of }$qual of ($executed)" "$_tfw_tmp/content" "$@"
}
_tfw_assert_grep() {
local label="$1"
local file="$2"
local pattern="$3"
local message=
if ! [ -e "$file" ]; then
_tfw_error "$file does not exist"
ret=$?
elif ! [ -f "$file" ]; then
_tfw_error "$file is not a regular file"
ret=$?
elif ! [ -r "$file" ]; then
_tfw_error "$file is not readable"
ret=$?
else
local matches=$(( $($GREP --regexp="$pattern" "$file" | wc -l) + 0 ))
local done=false
local ret=0
local info="$matches match"$([ $matches -ne 1 ] && echo "es")
local oo
_tfw_shopt oo -s extglob
case "$_tfw_opt_matches" in
'')
done=true
message="${_tfw_message:-$label contains a line matching \"$pattern\"}"
if [ $matches -ne 0 ]; then
tfw_log "# assert $message"
else
_tfw_failmsg "assertion failed ($info): $message"
ret=1
fi
;;
esac
case "$_tfw_opt_matches" in
+([0-9]))
done=true
local s=$([ $_tfw_opt_matches -ne 1 ] && echo s)
message="${_tfw_message:-$label contains exactly $_tfw_opt_matches line$s matching \"$pattern\"}"
if [ $matches -eq $_tfw_opt_matches ]; then
tfw_log "# assert $message"
else
_tfw_failmsg "assertion failed ($info): $message"
ret=1
fi
;;
esac
case "$_tfw_opt_matches" in
+([0-9])-*([0-9]))
done=true
local bound=${_tfw_opt_matches%-*}
local s=$([ $bound -ne 1 ] && echo s)
message="${_tfw_message:-$label contains at least $bound line$s matching \"$pattern\"}"
if [ $matches -ge $bound ]; then
tfw_log "# assert $message"
else
_tfw_failmsg "assertion failed ($info): $message"
ret=1
fi
;;
esac
case "$_tfw_opt_matches" in
*([0-9])-+([0-9]))
done=true
local bound=${_tfw_opt_matches#*-}
local s=$([ $bound -ne 1 ] && echo s)
message="${_tfw_message:-$label contains at most $bound line$s matching \"$pattern\"}"
if [ $matches -le $bound ]; then
tfw_log "# assert $message"
else
_tfw_failmsg "assertion failed ($info): $message"
ret=1
fi
;;
esac
if ! $done; then
_tfw_error "unsupported value for --matches=$_tfw_opt_matches"
ret=$?
fi
_tfw_shopt_restore oo
fi
if [ $ret -ne 0 ]; then
_tfw_backtrace
fi
return $ret
}
# Write a message to the real stderr of the test script, so the user sees it
# immediately. Also write the message to the test log, so it can be recovered
# later.
_tfw_echoerr() {
echo "$@" >&$_tfw_stderr
if [ $_tfw_stderr -ne 2 ]; then
echo "$@" >&2
fi
}
_tfw_checkBashVersion() {
[ -z "$BASH_VERSION" ] && _tfw_fatal "not running in Bash (/bin/bash) shell"
if [ -n "${BASH_VERSINFO[*]}" ]; then
[ ${BASH_VERSINFO[0]} -gt 3 ] && return 0
if [ ${BASH_VERSINFO[0]} -eq 3 ]; then
[ ${BASH_VERSINFO[1]} -gt 2 ] && return 0
if [ ${BASH_VERSINFO[1]} -eq 2 ]; then
[ ${BASH_VERSINFO[2]} -ge 48 ] && return 0
fi
fi
fi
_tfw_fatal "unsupported Bash version: $BASH_VERSION"
}
_tfw_checkTerminfo() {
_tfw_tput=false
case $(type -p tput) in
*/tput) _tfw_tput=tput;;
esac
}
_tfw_checkCommandInPATH() {
case $(type -p "$1") in
*/"${1##*/}") ;;
*) _tfw_fatal "command not found: $1 (PATH=$PATH)"
esac
}
# Return a list of test names in the _tfw_tests array variable, in the order
# that the test_TestName functions were defined. Test names must start with
# an alphabetic character (not numeric or '_').
_tfw_find_tests() {
_tfw_tests=()
local oo
_tfw_shopt oo -s extdebug
local name
for name in $(builtin declare -F |
$SED -n -e '/^declare -f test_[A-Za-z]/s/^declare -f test_//p' |
while read name; do builtin declare -F "test_$name"; done |
sort -k 2,2n -k 3,3 |
$SED -e 's/^test_//' -e 's/[ ].*//')
do
local number=$((${#_tfw_tests[*]} + 1))
local testName=
if [ $# -eq 0 ]; then
testName="$name"
else
local filter
for filter; do
case "$filter" in
+([0-9]))
if [ $number -eq $filter ]; then
testName="$name"
break
fi
;;
+([0-9])*(,+([0-9])))
local oIFS="$IFS"
IFS=,
local -a numbers=($filter)
IFS="$oIFS"
local n
for n in ${numbers[*]}; do
if [ $number -eq $n ]; then
testName="$name"
break 2
fi
done
;;
+([0-9])-)
local start=${filter%-}
if [ $number -ge $start ]; then
testName="$name"
break
fi
;;
-+([0-9]))
local end=${filter#-}
if [ $number -le $end ]; then
testName="$name"
break
fi
;;
+([0-9])-+([0-9]))
local start=${filter%-*}
local end=${filter#*-}
if [ $number -ge $start -a $number -le $end ]; then
testName="$name"
break
fi
;;
*)
case "$name" in
"$filter"*) testName="$name"; break;;
esac
;;
esac
done
fi
_tfw_tests+=("$testName")
done
_tfw_shopt_restore oo
}
# A "fail" event occurs when any assertion fails, and indicates that the test
# has not passed. Other tests may still proceed. A "fail" event during setup
# or teardown is treated as an error, not a failure.
_tfw_failmsg() {
# A failure during setup or teardown is treated as an error.
case $_tfw_phase in
testcase|finalise)
if ! $_tfw_opt_error_on_fail; then
tfw_log "FAIL: $*"
return 0;
fi
;;
esac
tfw_log "ERROR: $*"
}
_tfw_backtrace() {
tfw_log '#----- shell backtrace -----'
local -i up=1
while [ "${BASH_SOURCE[$up]}" == "${BASH_SOURCE[0]}" ]; do
let up=up+1
done
local -i i=0
while [ $up -lt ${#FUNCNAME[*]} -a "${BASH_SOURCE[$up]}" != "${BASH_SOURCE[0]}" ]; do
echo "[$i] ${FUNCNAME[$(($up-1))]}() called from ${FUNCNAME[$up]}() at line ${BASH_LINENO[$(($up-1))]} of ${BASH_SOURCE[$up]}" >&$_tfw_log_fd
let up=up+1
let i=i+1
done
tfw_log '#-----'
}
_tfw_failexit() {
# When exiting a test case due to a failure, log any diagnostic output that
# has been requested.
tfw_cat "${_tfw_opt_dump_on_fail[@]}"
# A failure during setup or teardown is treated as an error. A failure
# during finalise does not terminate execution.
case $_tfw_phase in
testcase)
if ! $_tfw_opt_error_on_fail; then
exit 1
fi
;;
finalise)
if ! $_tfw_opt_error_on_fail; then
case $_tfw_result in
PASS) _tfw_result=FAIL; _tfw_status=1;;
esac
return 1
fi
;;
esac
_tfw_errorexit
}
# An "error" event prevents a test from running, so it neither passes nor fails.
# Other tests may still proceed.
_tfw_errormsg() {
[ $# -eq 0 ] && set -- "(no message)"
local -i up=1
local -i top=${#FUNCNAME[*]}
let top=top-1
while [ $up -lt $top -a "${BASH_SOURCE[$up]}" == "${BASH_SOURCE[0]}" ]; do
let up=up+1
done
tfw_log "ERROR in ${FUNCNAME[$up]}: $*"
}
_tfw_error() {
_tfw_errormsg "ERROR: $*"
_tfw_backtrace
_tfw_errorexit
}
_tfw_errorexit() {
# Do not exit process during finalise or teardown
_tfw_result=ERROR
case $_tfw_phase in
finalise|teardown) [ $_tfw_status -lt 254 ] && _tfw_status=254;;
*) exit 254;;
esac
return 254
}
# A "fatal" event stops the entire test run, and generally indicates an
# insurmountable problem in the test script or in the test framework itself.
_tfw_fatalmsg() {
_tfw_echoerr "${BASH_SOURCE[1]}: FATAL: $*"
}
_tfw_fatal() {
[ $# -eq 0 ] && set -- exiting
_tfw_echoerr "${BASH_SOURCE[1]}: FATAL: $*"
_tfw_fatalexit
}
_tfw_fatalexit() {
exit 255
}
# Restore the caller's shopt preferences before returning.
_tfw_shopt_restore _tfw_orig_shopt